REGISTER_NET_TEMP(casings)
+#if defined(SVQC)
+.bool cvar_cl_casings;
+#elif defined(CSQC)
+bool cvar_cl_casings;
+#endif
+REPLICATE(cvar_cl_casings, bool, "cl_casings");
+
#ifdef SVQC
void SpawnCasing(vector vel, float randomvel, vector ang, vector avel, float randomavel, int casingtype, entity casingowner, .entity weaponentity)
{
- entity wep = casingowner.(weaponentity);
- vector org = casingowner.origin + casingowner.view_ofs + wep.spawnorigin.x * v_forward - wep.spawnorigin.y * v_right + wep.spawnorigin.z * v_up;
-
- if (!sound_allowed(MSG_BROADCAST, casingowner))
- casingtype |= 0x80;
-
- WriteHeader(MSG_ALL, casings);
- WriteByte(MSG_ALL, casingtype);
- WriteVector(MSG_ALL, org);
- WriteShort(MSG_ALL, compressShortVector(vel)); // actually compressed velocity
- WriteByte(MSG_ALL, ang.x * 256 / 360);
- WriteByte(MSG_ALL, ang.y * 256 / 360);
- WriteByte(MSG_ALL, ang.z * 256 / 360);
+ entity wep = casingowner.(weaponentity);
+ vector org = casingowner.origin + casingowner.view_ofs + wep.spawnorigin.x * v_forward - wep.spawnorigin.y * v_right + wep.spawnorigin.z * v_up;
+
+ FOREACH_CLIENT(true, {
+ if (!(CS(it).cvar_cl_casings))
+ continue;
+
+ msg_entity = it;
+ if (!sound_allowed(MSG_ONE, it))
+ casingtype |= 0x80; // silent
+
+ WriteHeader(MSG_ONE, casings);
+ WriteByte(MSG_ONE, casingtype);
+ WriteVector(MSG_ONE, org);
+ WriteShort(MSG_ONE, compressShortVector(vel)); // actually compressed velocity
+ WriteByte(MSG_ONE, ang.x * 256 / 360);
+ WriteByte(MSG_ONE, ang.y * 256 / 360);
+ WriteByte(MSG_ONE, ang.z * 256 / 360);
+ });
}
#endif
#ifdef CSQC
entityclass(Casing);
-class(Casing) .float alpha;
-class(Casing) .bool silent;
-class(Casing) .int state;
-class(Casing) .float cnt;
+classfield(Casing) .float alpha;
+classfield(Casing) .bool silent;
+classfield(Casing) .int state;
+classfield(Casing) .float cnt;
void Casing_Delete(entity this)
{
ang_z = ReadByte() * 360 / 256;
return = true;
- if (!autocvar_cl_casings) return;
-
Casing casing = RubbleNew("casing");
casing.silent = (_state & 0x80);
casing.state = (_state & 0x7F);
casing.velocity = casing.velocity + 2 * prandomvec();
casing.avelocity = '0 250 0' + 100 * prandomvec();
set_movetype(casing, MOVETYPE_BOUNCE);
+ casing.bouncefactor = 0.25;
settouch(casing, Casing_Touch);
casing.move_time = time;
casing.event_damage = Casing_Damage;